Electric Motor Testing is usually the first thing to be sacrificed when cutting back on operational expenses. But smart companies understands is that what this means for maintenance programs is millions of dollars of lost revenue through increased motor repair costs, downtime, and waste in industrial and commercial companies.
Electrical faults are the most usual means of motor failure, thus a planned electrical testing routine is crucial for safeguarding your plant reliability. Based on statistical data compiled by the Electric Power Research Institute (EPRI), 50% of motor failures are due to electrical failures. The 50% can be further broken down into rotor problems (12%) and winding problems (38%). The other 50% of failures will be mechanical faults.Winding defects can occur due to insulation age, contamination, power surges, thermal overload, damaged wire/materials, vibration, and other causes. They start as energy crossing an insulation fault, like contamination or moisture, which cuts off at least one rotation. This leads to extra stress and heat across the fault, which increases until an arc is pulled and the winding flops.
Some of the winding faults are:
Removing any of the above faults can save your organisation uncountable hours of interruption and numerous dollars in savings.
There are various kinds of testing done on motor. They are:
Electric Motor impulse testing is an integral part of predictive maintenance of electrical motors. Through the following questions the influence that extensive impulse testing has on a motor is investigated.
Check for fan or pump motor rotation when testing offline with the MCE. Fans may continue to slowly rotate due to drafting in the Plenum. Pumps that are connected to a common header may continue to rotate if other pumps connected to the header are operating. This will adversely affect the Standard Test results, possibly creating higher than normal resistive and inductive imbalances.
Wound rotor motors have a three-phase winding wound on the rotor which is connected to three phases of start-up resistors in order to provide current and speed control on start-up. Failed components in the resistor bank are common and often overlooked when troubleshooting. These faults can have a significant impact on the overall operation of the motor and should be given considerable focus when troubleshooting these motors.
Electric motor insulation exhibits a negative temperature coefficient, meaning as temperature increases, resistance decreases. This would lead you to believe that insulation resistance of a de-energized motor will decrease after starting the motor. However, most often the resistance will initially increase after running due to moisture being evaporated by the increasing temperature of the windings. The governing standard (IEEE43) on insulation resistance testing requires a temperature correction to 40 degrees Celsius, which could quickly turn acceptable measured resistance readings into unacceptably low corrected resistance readings. Before sending a motor to be refurbished, consider space heaters.
The recommended off-line in-service electric motor tests are:
The recommended spare electric motor tests are:
The recommended new/refurbished electric motor tests are:
Following are the steps for different types of motor testing:
Our Process
We discuss your facility requirements, compliance goals, and project timeline.
Our engineers gather system data, single-line diagrams, and equipment specifications on-site.
We perform the study using industry-standard software and IEEE/IEC methodologies.
You receive actionable documentation with findings, risk ratings, and remediation recommendations.
We help implement recommendations including labeling, PPE selection, and system modifications.
Final review ensures full alignment with DEWA regulations and international standards.
FAQ
Electrical faults are the most usual means of motor failure, thus a planned electrical testing routine is crucial for safeguarding your plant reliability. Based on statistical data compiled by the Electric Power Research Institute (EPRI), 50% of motor failures are due to electrical failures. The 50.
There are various kinds of testing done on motor. They are:
Following are the steps for different types of motor testing:
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